/* 2002-03-18 N.OTUKA 10 POINTS CHECK */ \\BIB,1[6; D#=D633; TITLE=/ENERGY DEPENDENCE OF THE RATIO OF ISOVECTOR EFFECTIVE INTERACTION STRENGTHS |J(SIGMA.TAU)/J(TAU)| FROM 0 DEGREE (P,N) CROSS SECTIONS/; ATH=(T.N.TADDEUCCI'1',J.RAPAPORT'1',D.E.BAINUM'2',C.D.GOODMAN'3', C.C.FOSTER'3',C.GAARDE'4',J.LARSEN'4',C.A.GOULDING'5,6', D.J.HOREN'7',T.MASTERSON'8',E.SUGARBAKER'9'); INST-ATH=(1USAOHO'1',1USAUSA'2',1USAINU'3',2DENNBI'4',1USATEX'5', 1USAORL'7',1USACLU'8',1USAOSU'9'); /*@2@*/ REF=PR/C; VLP=25(1981)1094; RCTS=(7LI(P,N)7BE,13C(P,N)13N,14C(P,N)14N,26MG(P,N)26AL,37CL(P,N)37AR, 42CA(P,N)42SC); \\EXP,1[6; THK-TGT=XMG/CM**2; POL-TGT=NO; ALGN-TGT=NO; ACC=(CYC); INST-ACC=1USAINU; INC-ENGY-LAB-RANGE=60MEV(XMEV)200MEV; DELTA-INC-ENGY-LAB=XKEV; ERS-PRJ=XKEV; POL-PRJ=NO; DET-PARTCL=(N); DET-SYS=(TOF); SOLID-ANGL=XMSR; ANL=(DWIA); PHQ=(XSECTN-RATIO); \\EXP,1; RCT=14C(P,N)14N; \\DATA,1; INC-ENGY-LAB=60[200MEV; RSD=14N; /*FIG.1-(1)*/ /* D633 FIG.1-(1) */ /* SER#= 1 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 2.00000000E+02 YMAX= 3.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; INC-ENGY-LAB DATA'10' DELTA-DATA'10' (MEV) (NODIM) (NODIM) 10.352 2.846E-01 XXXXXXXXX 13.250 1.325E+00 1.951E-01 17.805 3.821E-01 1.300E-01 30.228 4.878E-01 XXXXXXXXX 34.368 5.772E-01 XXXXXXXXX 44.720 8.211E-01 8.130E-02 59.627 1.114E+00 XXXXXXXXX 116.770 2.146E+00 5.691E-02 159.006 2.886E+00 1.056E-01 \END; /*@3@*/ \\EXP,2; RCT=26MG(P,N)26AL; \\DATA,2; INC-ENGY-LAB=60[200MEV; RSD=26AL; /*FIG.1-(2)*/ /* D633 FIG.1-(2) */ /* SER#= 2 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 2.00000000E+02 YMAX= 3.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; INC-ENGY-LAB DATA'10' DELTA-DATA'10' (MEV) (NODIM) (NODIM) 11.157 1.208E+00 XXXXXXXXX 21.901 3.892E-01 1.540E-01 34.297 3.486E-01 XXXXXXXXX 44.628 6.405E-01 7.297E-02 78.512 1.403E+00 6.486E-02 119.008 2.189E+00 1.297E-01 158.264 2.968E+00 1.621E-01 \END; /*@3@*/ \\EXP,3; RCT=42CA(P,N)42SC; \\DATA,3; INC-ENGY-LAB=60[200MEV; RSD=42SC; /*FIG.1-(3)*/ /* D633 FIG.1-(3) */ /* SER#= 3 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 2.00000000E+02 YMAX= 3.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; INC-ENGY-LAB DATA'10' DELTA-DATA'10' (MEV) (NODIM) (NODIM) 12.810 1.203E+00 XXXXXXXXX 25.207 3.659E-01 XXXXXXXXX 117.769 2.195E+00 7.317E-02 \END; /*@3@*/ \\EXP,4; RCT=7LI(P,N)7BE; \\DATA,4; INC-ENGY-LAB=60[200MEV; RSD=7BE; /*FIG.1-(4)*/ /* D633 FIG.1-(4) */ /* SER#= 4 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 2.00000000E+02 YMAX= 3.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; INC-ENGY-LAB DATA'11' DELTA-DATA'11' (MEV) (NODIM) (NODIM) 4.124 2.177E-01 XXXXXXXXX 6.598 6.371E-01 XXXXXXXXX 10.722 8.306E-01 XXXXXXXXX 19.381 6.935E-01 XXXXXXXXX 23.917 6.290E-01 XXXXXXXXX 33.402 7.661E-01 XXXXXXXXX 58.144 1.032E+00 XXXXXXXXX 77.938 1.331E+00 9.677E-02 115.876 2.161E+00 5.645E-02 156.701 2.815E+00 5.161E-01 \END; /*@4@*/ \\EXP,5; RCT=13C(P,N)13N; \\DATA,5; INC-ENGY-LAB=60[200MEV; RSD=13N; /*FIG.1-(5)*/ /* D633 FIG.1-(5) */ /* SER#= 5 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 2.00000000E+02 YMAX= 3.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; INC-ENGY-LAB DATA'11' DELTA-DATA'11' (MEV) (NODIM) (NODIM) 9.091 9.088E-01 1.286E-01 14.463 7.641E-01 XXXXXXXXX 22.314 8.365E-01 8.847E-02 28.926 9.249E-01 1.206E-01 34.297 1.021E+00 4.825E-02 44.215 9.651E-01 XXXXXXXXX 48.760 1.086E+00 5.630E-02 78.099 1.713E+00 1.608E-01 118.595 2.252E+00 1.286E-01 158.678 2.831E+00 2.171E-01 199.587 3.466E+00 3.217E-01 \END; /*@4@*/ \\EXP,6; RCT=37CL(P,N)37AR; \\DATA,6; INC-ENGY-LAB=60[200MEV; RSD=37AR; /*FIG.1-(6)*/ /* D633 FIG.1-(6) */ /* SER#= 6 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 2.00000000E+02 YMAX= 3.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; INC-ENGY-LAB DATA'11' DELTA-DATA'11' (MEV) (NODIM) (NODIM) 16.116 7.560E-01 XXXXXXXXX 116.942 2.043E+00 9.651E-02 \END; /*@4@*/ \\END; @@2; '6' PRESENT ADDRESS: EG&G, INC., LOS ALAMOS, N.M.87544. '2' EMPORIA STATE UNIVERSITY, EMPORIA, KANSAS 66801 @@3; '10' A(GT):= SIGMA(0 DEG.)/B(GT)*K(E)), A(F):=SIGMA(0 DEG)/(B(F)*K(E)), WHERE SIGMA (0 DEG.) IS THE DIFFERENTIAL CROSS SECTION AT THETA=0 DEG, B( ) IS REDUCED TRANSITION PROBABILITY , AND K(E)=(E(I)*E(F)/PAI**2)(K( F)/K(I)) SIGMA, B AND K IN A(GT) OR A(F) CORRESPOND TO GAMOW-TELLER TRANSITIONS OR FERMI TRANSITIONS. DATA'10'=(A(GT)/A(F))**0.5 @@4; DATA'11' =B(F)/(A*B(GT)-BM(GT)), WHERE A=(SIGMA-M(0 MEG)/SIGMA-GT(0 MEG ))*(K-GT(E)/K-M(E)), SIGMA-M, BM(GT) AND B(F) ARE THE DIFFERENTIAL CROSS SECTION, GT STRENGTH AND F STRENGTH FOR THE MIXED IAS TRANSITION, AND SIGMAZGT AND B(GT) ARE THE CORRESPONDING QUANTITIES FOR THE PURE GT TRANSITION. @@;